HOST_ENDIAN_TO_BFS_INT32
header->max_number_of_levels = HOST_ENDIAN_TO_BFS_INT32(
header->max_number_of_levels = HOST_ENDIAN_TO_BFS_INT32(1);
header->magic = HOST_ENDIAN_TO_BFS_INT32(BPLUSTREE_MAGIC);
header->node_size = HOST_ENDIAN_TO_BFS_INT32(fNodeSize);
header->max_number_of_levels = HOST_ENDIAN_TO_BFS_INT32(1);
header->data_type = HOST_ENDIAN_TO_BFS_INT32(ModeToKeyType(stream->Mode()));
header->max_number_of_levels = HOST_ENDIAN_TO_BFS_INT32(1);
run.allocation_group = HOST_ENDIAN_TO_BFS_INT32(bestGroup);
cached.Block(index) |= HOST_ENDIAN_TO_BFS_INT32(kMask);
return Chunk(block >> 5) & HOST_ENDIAN_TO_BFS_INT32(1UL << (block % 32));
Block(block) | HOST_ENDIAN_TO_BFS_INT32(mask)));
if (HOST_ENDIAN_TO_BFS_INT32(mask) & ((uint32*)fBlock)[block]) {
Chunk(block++) |= HOST_ENDIAN_TO_BFS_INT32(mask);
Block(block) & HOST_ENDIAN_TO_BFS_INT32(~mask)));
Chunk(block++) &= HOST_ENDIAN_TO_BFS_INT32(~mask);
inode->Node().flags |= HOST_ENDIAN_TO_BFS_INT32(INODE_DONT_FREE_SPACE);
fCheckBitmap[index] |= HOST_ENDIAN_TO_BFS_INT32(1UL << (block & 0x1f));
run.allocation_group = HOST_ENDIAN_TO_BFS_INT32(
attributes->Node().flags |= HOST_ENDIAN_TO_BFS_INT32(INODE_DELETED);
&= ~HOST_ENDIAN_TO_BFS_INT32(INODE_DELETED);
attribute->Node().type = HOST_ENDIAN_TO_BFS_INT32(type);
fInode->Node().flags &= ~HOST_ENDIAN_TO_BFS_INT32(INODE_IN_USE);
fInode->Node().mode |= HOST_ENDIAN_TO_BFS_INT32(S_STR_INDEX);
Node().flags &= ~HOST_ENDIAN_TO_BFS_INT32(INODE_IN_TRANSACTION);
inode->Node().flags |= HOST_ENDIAN_TO_BFS_INT32(INODE_DELETED);
inode->Node().flags &= ~HOST_ENDIAN_TO_BFS_INT32(INODE_IN_USE);
node->uid = HOST_ENDIAN_TO_BFS_INT32(geteuid());
node->gid = HOST_ENDIAN_TO_BFS_INT32(parent
node->type = HOST_ENDIAN_TO_BFS_INT32(type);
Node().magic1 = HOST_ENDIAN_TO_BFS_INT32(INODE_MAGIC1);
Node().mode = HOST_ENDIAN_TO_BFS_INT32(mode);
Node().flags = HOST_ENDIAN_TO_BFS_INT32(INODE_IN_USE);
Node().inode_size = HOST_ENDIAN_TO_BFS_INT32(volume->InodeSize());
Node().flags |= HOST_ENDIAN_TO_BFS_INT32(INODE_IN_TRANSACTION);
fNode.flags &= HOST_ENDIAN_TO_BFS_INT32(INODE_PERMANENT_FLAGS);
item->type = HOST_ENDIAN_TO_BFS_INT32(type);
item->type = HOST_ENDIAN_TO_BFS_INT32(type);
max_runs = HOST_ENDIAN_TO_BFS_INT32(MaxRuns(blockSize));
count = HOST_ENDIAN_TO_BFS_INT32(CountRuns() + 1);
fVolume->SuperBlock().flags = HOST_ENDIAN_TO_BFS_INT32(
superBlock.flags = HOST_ENDIAN_TO_BFS_INT32(SUPER_BLOCK_DISK_CLEAN);
num_ags = HOST_ENDIAN_TO_BFS_INT32(numGroups);
blocks_per_ag = HOST_ENDIAN_TO_BFS_INT32(bitmapBlocksPerGroup);
ag_shift = HOST_ENDIAN_TO_BFS_INT32(groupShift);
run.allocation_group = HOST_ENDIAN_TO_BFS_INT32(
magic1 = HOST_ENDIAN_TO_BFS_INT32(SUPER_BLOCK_MAGIC1);
magic2 = HOST_ENDIAN_TO_BFS_INT32(SUPER_BLOCK_MAGIC2);
magic3 = HOST_ENDIAN_TO_BFS_INT32(SUPER_BLOCK_MAGIC3);
fs_byte_order = HOST_ENDIAN_TO_BFS_INT32(SUPER_BLOCK_FS_LENDIAN);
flags = HOST_ENDIAN_TO_BFS_INT32(SUPER_BLOCK_DISK_CLEAN);
block_size = inode_size = HOST_ENDIAN_TO_BFS_INT32(blockSize);
block_shift = HOST_ENDIAN_TO_BFS_INT32(blockShift);
allocation_group = HOST_ENDIAN_TO_BFS_INT32(_group);
run.allocation_group = HOST_ENDIAN_TO_BFS_INT32(group);
link->Node().flags |= HOST_ENDIAN_TO_BFS_INT32(INODE_LONG_SYMLINK
node.uid = HOST_ENDIAN_TO_BFS_INT32(stat->st_uid);
node.gid = HOST_ENDIAN_TO_BFS_INT32(stat->st_gid);
node.mode = HOST_ENDIAN_TO_BFS_INT32((node.Mode() & ~S_IUMSK)
run.allocation_group = HOST_ENDIAN_TO_BFS_INT32(block >> fSuperBlock.AllocationGroupShift());